DOCSLIB.ORG

Ta2, Part Iii

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

TERMINOLOGIA ANATOMICA Second Edition (2.06) International Anatomical Terminology FIPAT The Federative International Programme for Anatomical Terminology A programme of the International Federation of Associations of Anatomists (IFAA) TA2, PART III Contents: Systemata visceralia Visceral systems Caput V: Systema digestorium Chapter 5: Digestive system Caput VI: Systema respiratorium Chapter 6: Respiratory system Caput VII: Cavitas thoracis Chapter 7: Thoracic cavity Caput VIII: Systema urinarium Chapter 8: Urinary system Caput IX: Systemata genitalia Chapter 9: Genital systems Caput X: Cavitas abdominopelvica Chapter 10: Abdominopelvic cavity Bibliographic Reference Citation: FIPAT. Terminologia Anatomica. 2nd ed. FIPAT.library.dal.ca. Federative International Programme for Anatomical Terminology, 2019 Published pending approval by the General Assembly at the next Congress of IFAA (2019) Creative Commons License: The publication of Terminologia Anatomica is under a Creative Commons Attribution-NoDerivatives 4.0 International (CC BY-ND 4.0) license The individual terms in this terminology are within the public domain. Statements about terms being part of this international standard terminology should use the above bibliographic reference to cite this terminology. The unaltered PDF files of this terminology may be freely copied and distributed by users. IFAA member societies are authorized to publish translations of this terminology. Authors of other works that might be considered derivative should write to the Chair of FIPAT for permission to publish a derivative work. Caput V: SYSTEMA DIGESTORIUM Chapter 5: DIGESTIVE SYSTEM Latin term Latin synonym UK English US English English synonym Other 2772 Systemata visceralia Visceral systems Visceral systems Splanchnologia 2773 Systema digestorium Systema alimentarium Digestive system Digestive system Alimentary system Apparatus digestorius; Gastrointestinal system 2774 Stoma Ostium orale; Os Mouth Mouth 2775 Labia oris Lips Lips See Anatomia generalis (Ch. 1 in Part 1 of TA2) 2776 Facies interna buccae Facies mucosa buccae Internal surface of cheek Internal surface of cheek Inner surface of cheek; Mucosal surface of cheek 2777 Papilla ductus parotidei Papilla of parotid duct Papilla of parotid duct Papilla salivaria buccalis; Papilla parotidea Endnote 406 2778 Palatum Palate Palate 2779 Palatum durum Hard palate Hard palate Endnote 407 2780 Palatum molle Velum palatinum Soft palate Soft palate Endnote 408 2781 Uvula palatina Uvula of palate Uvula of palate 2782 Raphe palati Palatine raphe Palatine raphe Rhaphe palati 2783 Plicae palatinae transversae Rugae palatinae Transverse palatine folds Transverse palatine folds Palatine rugae 2784 Papilla incisiva Incisive papilla Incisive papilla 2785 Tunica mucosa oris Mucosa of mouth Mucosa of mouth Mucous membrane of mouth; Oral mucosa 2786 Frenulum labii superioris Frenulum of upper lip Frenulum of upper lip Frenulum of superior lip Frenulum labii maxillaris 2787 Frenulum labii inferioris Frenulum of lower lip Frenulum of lower lip Frenulum of inferior lip Frenulum labii mandibularis 2788 Caruncula sublingualis Sublingual caruncle Sublingual caruncle Papilla salivaria sublingualis 2789 Plica sublingualis Sublingual fold Sublingual fold 2790 Gingiva Gingiva Gingiva Gum Endnote 409 2791 Margo gingivalis Gingival margin Gingival margin Gingiva marginalis; Pars libera gingivae; Marginal gingiva; Free gingival margin 2792 Papilla gingivalis Papilla interdentalis Gingival papilla Gingival papilla Interdental papilla 2793 Sulcus gingivalis Gingival sulcus Gingival sulcus Gingival groove 2794 Cavitas oris Oral cavity Oral cavity Cavum oris Endnote 410 2795 Rima oris Oral opening Oral opening Oral fissure 2796 Vestibulum oris Oral vestibule Oral vestibule 2797 Cavitas propria oris Cavitas oris propria Oral cavity proper Oral cavity proper Cavum oris proprius 2798 Glandulae salivariae Glandulae oris Salivary glands Salivary glands Glands of mouth Endnote 411 2799 Glandulae salivariae majores Major salivary glands Major salivary glands 2800 Glandula parotidea Parotid gland Parotid gland Glandula parotis Endnote 412 2801 Pars superficialis glandulae Superficial part of parotid gland Superficial part of parotid gland parotideae FIPAT.library.dal.ca TA2, Part 3 126 2802 Pars profunda glandulae Deep part of parotid gland Deep part of parotid gland parotideae 2803 Processus glenoideus glandulae Glenoid process of parotid gland Glenoid process of parotid gland Processus retromandibularis parotideae 2804 Processus pterygoideus Pterygoid process of parotid Pterygoid process of parotid glandulae parotideae gland gland 2805 Ductus parotideus Parotid duct Parotid duct Ductus parotidicus; Ductus Stensonis; Stensen's duct 2806 (Glandula parotidea accessoria) (Accessory parotid gland) (Accessory parotid gland) Socia parotidis Glandula parotis accessoria 2807 Glandula sublingualis Sublingual gland Sublingual gland Gland of Rivinus 2808 Ductus sublingualis major Major sublingual duct Major sublingual duct Bartholin's duct 2809 Ductus sublinguales minores Minor sublingual ducts Minor sublingual ducts Ducts of Rivinus 2810 Glandula submandibularis Submandibular gland Submandibular gland Glandula submaxillaris; Submaxillary gland Endnote 413 2811 Ductus submandibularis Submandibular duct Submandibular duct Submaxillary duct Ductus submaxillaris; Ductus Whartoni; Wharton's duct 2812 Glandulae salivariae minores Minor salivary glands Minor salivary glands 2813 Glandulae labiales Labial glands Labial glands 2814 Glandulae buccales Buccal glands Buccal glands 2815 Glandulae molares Molar glands Molar glands 2816 Glandulae palatinae Palatine glands Palatine glands 2817 Glandulae linguales Lingual glands Lingual glands Gland of Blandin; Gland of Nuhn 2818 Dentes Teeth Teeth See Systema skeletale (Ch.2 in Part 2 of TA2) 2819 Periodontium Periodontium Periodontium Periosteum alveolare Endnote 414 2820 Lingua Tongue Tongue 2821 Corpus linguae Body of tongue Body of tongue 2822 Radix linguae Root of tongue Root of tongue 2823 Apex linguae Apex of tongue Apex of tongue Tip of tongue 2824 Dorsum linguae Dorsum of tongue Dorsum of tongue 2825 Pars anterior linguae Pars presulcalis linguae Anterior part of tongue Anterior part of tongue Presulcal part of tongue Endnote 415 2826 Sulcus terminalis linguae Terminal sulcus of tongue Terminal sulcus of tongue Endnote 416 2827 Pars posterior linguae Pars postsulcalis linguae Posterior part of tongue Posterior part of tongue Postsulcal part of tongue Endnote 417 2828 Foramen caecum linguae Foramen caecum of tongue Foramen cecum of tongue Foramen Morgagnii; Foramen of Morgagni; Morand's foramen Endnote 418 2829 (Ductus thyreoglossus) Ductus thyroglossus (Thyroglossal duct) (Thyroglossal duct) Ductus thyroglossalis 2830 Tonsilla lingualis Lingual tonsil Lingual tonsil 2831 Sulcus medianus linguae Median sulcus of tongue Median sulcus of tongue Midline groove of tongue 2832 Margo linguae Margin of tongue Margin of tongue Margo lateralis linguae 2833 Facies inferior linguae Facies ventralis linguae Inferior surface of tongue Inferior surface of tongue Ventral surface of tongue Facies mylohyoidea linguae 2834 Plica fimbriata Fimbriated fold Fimbriated fold 2835 Tunica mucosa linguae Mucosa of tongue Mucosa of tongue Mucous membrane of tongue 2836 Frenulum linguae Lingual frenulum Lingual frenulum Frenulum of tongue; Frenum of tongue FIPAT.library.dal.ca TA2, Part 3 127 2837 Papillae linguales Lingual papillae Lingual papillae Papillae of tongue 2838 Papillae filiformes Filiform papillae Filiform papillae 2839 Papillae fungiformes Fungiform papillae Fungiform papillae 2840 Papillae vallatae Vallate papillae Vallate papillae Papillae circumvallatae 2841 Papillae foliatae Foliate papillae Foliate papillae Folia 2842 Septum linguae Lingual septum Lingual septum 2843 Aponeurosis linguae Lingual aponeurosis Lingual aponeurosis 2844 Musculi linguae Muscles of tongue Muscles of tongue See Systema musculare (Ch. 4 in Part 2 of TA2) 2845 Fauces Fauces Fauces Endnote 419 2846 Isthmus faucium Isthmus of fauces Isthmus of fauces Oropharyngeal isthmus 2847 Arcus palatoglossus Plica anterior faucium Palatoglossal arch Palatoglossal arch Palatoglossal fold; Anterior pillar of Arcus glossopalatinus fauces 2848 (Plica triangularis) (Triangular fold) (Triangular fold) Endnote 420 2849 Arcus palatopharyngeus Plica posterior faucium Palatopharyngeal arch Palatopharyngeal arch Palatopharyngeal fold; Posterior Arcus pharyngopalatinus pillar of fauces 2850 (Plica semilunaris) (Semilunar fold) (Semilunar fold) Endnote 421 2851 Fossa tonsillaris Sinus tonsillaris Tonsillar fossa Tonsillar fossa Tonsillar sinus; Tonsillar bed Endnote 422 2852 Fossa supratonsillaris Supratonsillar fossa Supratonsillar fossa Endnote 423 2853 Tonsilla palatina Palatine tonsil Palatine tonsil 2854 Musculi palati mollis Musculi palati mollis et faucium Muscles of soft palate Muscles of soft palate See Systema musculare (Ch. 4 in Part 2 of TA2) 2855 Pharynx Pharynx Pharynx 2856 Musculi pharyngis Tunica muscularis pharyngis Pharyngeal muscles Pharyngeal muscles Muscular layer of pharynx; See Systema musculare (Ch. 4 in Muscular coat of pharynx Part 2 of TA2) 2857 Tela submucosa pharyngis Submucosa of pharynx Submucosa of pharynx Submucosal layer of pharynx 2858 Fascia pharyngobasilaris Pharyngobasilar fascia Pharyngobasilar fascia Lamina pharyngobasilaris 2859 Tunica mucosa pharyngis Mucosa of pharynx Mucosa of pharynx Mucous membrane of pharynx 2860 Glandulae pharyngeae Glandulae pharyngeales
Recommended publications
  • The Anatomy of the Rectum and Anal Canal

    The Anatomy of the Rectum and Anal Canal

    BASIC SCIENCE identify the rectosigmoid junction with confidence at operation. The anatomy of the rectum The rectosigmoid junction usually lies approximately 6 cm below the level of the sacral promontory. Approached from the distal and anal canal end, however, as when performing a rigid or flexible sigmoid- oscopy, the rectosigmoid junction is seen to be 14e18 cm from Vishy Mahadevan the anal verge, and 18 cm is usually taken as the measurement for audit purposes. The rectum in the adult measures 10e14 cm in length. Abstract Diseases of the rectum and anal canal, both benign and malignant, Relationship of the peritoneum to the rectum account for a very large part of colorectal surgical practice in the UK. Unlike the transverse colon and sigmoid colon, the rectum lacks This article emphasizes the surgically-relevant aspects of the anatomy a mesentery (Figure 1). The posterior aspect of the rectum is thus of the rectum and anal canal. entirely free of a peritoneal covering. In this respect the rectum resembles the ascending and descending segments of the colon, Keywords Anal cushions; inferior hypogastric plexus; internal and and all of these segments may be therefore be spoken of as external anal sphincters; lymphatic drainage of rectum and anal canal; retroperitoneal. The precise relationship of the peritoneum to the mesorectum; perineum; rectal blood supply rectum is as follows: the upper third of the rectum is covered by peritoneum on its anterior and lateral surfaces; the middle third of the rectum is covered by peritoneum only on its anterior 1 The rectum is the direct continuation of the sigmoid colon and surface while the lower third of the rectum is below the level of commences in front of the body of the third sacral vertebra.
  • Te2, Part Iii

    Te2, Part Iii

    TERMINOLOGIA EMBRYOLOGICA Second Edition International Embryological Terminology FIPAT The Federative International Programme for Anatomical Terminology A programme of the International Federation of Associations of Anatomists (IFAA) TE2, PART III Contents Caput V: Organogenesis Chapter 5: Organogenesis (continued) Systema respiratorium Respiratory system Systema urinarium Urinary system Systemata genitalia Genital systems Coeloma Coelom Glandulae endocrinae Endocrine glands Systema cardiovasculare Cardiovascular system Systema lymphoideum Lymphoid system Bibliographic Reference Citation: FIPAT. Terminologia Embryologica. 2nd ed. FIPAT.library.dal.ca. Federative International Programme for Anatomical Terminology, February 2017 Published pending approval by the General Assembly at the next Congress of IFAA (2019) Creative Commons License: The publication of Terminologia Embryologica is under a Creative Commons Attribution-NoDerivatives 4.0 International (CC BY-ND 4.0) license The individual terms in this terminology are within the public domain. Statements about terms being part of this international standard terminology should use the above bibliographic reference to cite this terminology. The unaltered PDF files of this terminology may be freely copied and distributed by users. IFAA member societies are authorized to publish translations of this terminology. Authors of other works that might be considered derivative should write to the Chair of FIPAT for permission to publish a derivative work. Caput V: ORGANOGENESIS Chapter 5: ORGANOGENESIS
  • Rectum & Anal Canal

    Rectum & Anal Canal

    Rectum & Anal canal Dr Brijendra Singh Prof & Head Anatomy AIIMS Rishikesh 27/04/2019 EMBRYOLOGICAL basis – Nerve Supply of GUT •Origin: Foregut (endoderm) •Nerve supply: (Autonomic): Sympathetic Greater Splanchnic T5-T9 + Vagus – Coeliac trunk T12 •Origin: Midgut (endoderm) •Nerve supply: (Autonomic): Sympathetic Lesser Splanchnic T10 T11 + Vagus – Sup Mesenteric artery L1 •Origin: Hindgut (endoderm) •Nerve supply: (Autonomic): Sympathetic Least Splanchnic T12 L1 + Hypogastric S2S3S4 – Inferior Mesenteric Artery L3 •Origin :lower 1/3 of anal canal – ectoderm •Nerve Supply: Somatic (inferior rectal Nerves) Rectum •Straight – quadrupeds •Curved anteriorly – puborectalis levator ani •Part of large intestine – continuation of sigmoid colon , but lacks Mesentery , taeniae coli , sacculations & haustrations & appendices epiploicae. •Starts – S3 anorectal junction – ant to tip of coccyx – apex of prostate •12 cms – 5 inches - transverse slit •Ampulla – lower part Development •Mucosa above Houstons 3rd valve endoderm pre allantoic part of hind gut. •Mucosa below Houstons 3rd valve upto anal valves – endoderm from dorsal part of endodermal cloaca. •Musculature of rectum is derived from splanchnic mesoderm surrounding cloaca. •Proctodeum the surface ectoderm – muco- cutaneous junction. •Anal membrane disappears – and rectum communicates outside through anal canal. Location & peritoneal relations of Rectum S3 1 inch infront of coccyx Rectum • Beginning: continuation of sigmoid colon at S3. • Termination: continues as anal canal, • one inch below
  • 1 Male Checklist Male Reproductive System Components of the Male

    1 Male Checklist Male Reproductive System Components of the Male

    Male Checklist Male Reproductive System Components of the male Testes; accessory glands and ducts; the penis; and reproductive system the scrotum. Functions of the male The male reproductive system produces sperm cells that reproductive system can be transferred to the female, resulting in fertilization and the formation of a new individual. It also produces sex hormones responsible for the normal development of the adult male body and sexual behavior. Penis The penis functions as the common outlet for semen (sperm cells and glandular secretions) and urine. The penis is also the male copulatory organ, containing tissue that can fill with blood resulting in erection of the penis. Prepuce A fold of skin over the distal end of the penis. Circumcision is the surgical removal of the prepuce. Corpus spongiosum A spongy body consisting of erectile tissue. It surrounds the urethra. Sexual excitement can cause erectile tissue to fill with blood. As a result, the penis becomes erect. Glans penis The expanded, distal end of the corpus spongiosum. It is also called the head of the penis. Bulb of the penis The proximal end of the corpus spongiosum. Bulbospongiosus muscle One of two skeletal muscles surrounding the bulb of the penis. At the end of urination, contraction of the bulbospongiosus muscles forces any remaining urine out of the urethra. During ejaculation, contractions of the bulbospongiosus muscles ejects semen from the penis. Contraction of the bulbospongiosus muscles compresses the corpus spongiosum, helping to maintain an erection. Corpus cavernosum One of two spongy bodies consisting of erectile tissue that (pl., corpora cavernosa) form the sides and front of the penis.
  • Papilla with Separate Bile and Pancreatic Duct Orifices

    Papilla with Separate Bile and Pancreatic Duct Orifices

    JOP. J Pancreas (Online) 2013 May 10; 14(3):302-303. MULTIMEDIA ARTICLE – Clinical Imaging Papilla with Separate Bile and Pancreatic Duct Orifices Surinder Singh Rana, Deepak Kumar Bhasin Department of Gastroenterology, Post Graduate Institute of Medical Education and Research (PGIMER). Chandigarh, India A 32-year-old male, a known case of alcohol related Conflict of interest The authors have no potential chronic non calcific pancreatitis, was referred to us for conflicts of interest pancreatic endotherapy for relief of intractable abdominal pain. The cross sectional imaging studies References had revealed an irregularly dilated main pancreatic duct. The examination of the major duodenal papilla 1. Silvis SE, Vennes JA, Dreyer M. Variation in the normal duodenal papilla. Gastrointest Endosc 1983; 29:132-133 [PMID; revealed the presence of two separate orifices at 6852473] endoscopic retrograde cholangiopancreatography (ERCP) (Image). The cranial orifice was located at 11- 12 clock position whereas the caudal orifice was located at 4-5 clock position. The caudal orifice was selectively cannulated and the injection of the contrast revealed presence of an irregularly dilated main pancreatic duct. The cannula and the guide wire introduced through the caudal orifice selectively entered the pancreatic duct and did not come out through the cranial orifice. During ERCP, bile could be seen coming out of the cranial orifice, confirming it to be the orifice of common bile duct. Following selective cannulation of the main pancreatic duct, a 5-Fr stent was placed into the pancreatic duct. Following this, the patient had complete pain relief and is planned for further sessions of pancreatic endotherapy along with pancreatic sphincterotomy.
  • Scrotal Ultrasound

    Scrotal Ultrasound

    Scrotal Ultrasound Bruce R. Gilbert, MD, PhD Associate Clinical Professor of Urology & Reproductive Medicine Weill Cornell Medical College Director, Reproductive and Sexual Medicine Smith Institute For Urology North Shore LIJ Health System 1 Developmental Anatomy" Testis and Kidney Hindgut Allantois In the 3-week-old embryo the Primordial primordial germ cells in the wall of germ cells the yolk sac close to the attachment of the allantois migrate along the Heart wall of the hindgut and the dorsal Genital Ridge mesentery into the genital ridge. Yolk Sac Hindgut At 5-weeks the two excretory organs the pronephros and mesonephros systems regress Primordial Pronephric system leaving only the mesonephric duct. germ cells (regressing) Mesonephric The metanephros (adult kidney) system forms from the metanephric (regressing) diverticulum (ureteric bud) and metanephric mass of mesoderm. The ureteric bud develops as a dorsal bud of the mesonephric duct Cloaca near its insertion into the cloaca. Mesonephric Duct Mesonephric Duct Ureteric Bud Ureteric Bud Metanephric system Metanephric system 2 Developmental Anatomy" Wolffian and Mullerian DuctMesonephric Duct Under the influence of SRY, cells in the primitive sex cords differentiate into Sertoli cells forming the testis cords during week 7. Gonads Mesonephros It is at puberty that these testis cords (in Paramesonephric association with germ cells) undergo (Mullerian) Duct canalization into seminiferous tubules. Mesonephric (Wolffian) Duct At 7 weeks the indifferent embryo also has two parallel pairs of genital ducts: the Mesonephric (Wolffian) and the Paramesonephric (Mullerian) ducts. Bladder Bladder Mullerian By week 8 the developing fetal testis tubercle produces at least two hormones: Metanephros 1. A glycoprotein (MIS) produced by the Ureter Uterovaginal fetal Sertoli cells (in response to SRY) primordium Rectum which suppresses unilateral development of the Paramesonephric (Mullerian) duct 2.
  • Comparative Anatomy of the Lower Respiratory Tract of the Gray Short-Tailed Opossum (Monodelphis Domestica) and North American Opossum (Didelphis Virginiana)

    Comparative Anatomy of the Lower Respiratory Tract of the Gray Short-Tailed Opossum (Monodelphis Domestica) and North American Opossum (Didelphis Virginiana)

    University of Tennessee, Knoxville TRACE: Tennessee Research and Creative Exchange Doctoral Dissertations Graduate School 12-2001 Comparative Anatomy of the Lower Respiratory Tract of the Gray Short-tailed Opossum (Monodelphis domestica) and North American Opossum (Didelphis virginiana) Lee Anne Cope University of Tennessee - Knoxville Follow this and additional works at: https://trace.tennessee.edu/utk_graddiss Part of the Animal Sciences Commons Recommended Citation Cope, Lee Anne, "Comparative Anatomy of the Lower Respiratory Tract of the Gray Short-tailed Opossum (Monodelphis domestica) and North American Opossum (Didelphis virginiana). " PhD diss., University of Tennessee, 2001. https://trace.tennessee.edu/utk_graddiss/2046 This Dissertation is brought to you for free and open access by the Graduate School at TRACE: Tennessee Research and Creative Exchange. It has been accepted for inclusion in Doctoral Dissertations by an authorized administrator of TRACE: Tennessee Research and Creative Exchange. For more information, please contact [email protected]. To the Graduate Council: I am submitting herewith a dissertation written by Lee Anne Cope entitled "Comparative Anatomy of the Lower Respiratory Tract of the Gray Short-tailed Opossum (Monodelphis domestica) and North American Opossum (Didelphis virginiana)." I have examined the final electronic copy of this dissertation for form and content and recommend that it be accepted in partial fulfillment of the equirr ements for the degree of Doctor of Philosophy, with a major in Animal Science. Robert W. Henry, Major Professor We have read this dissertation and recommend its acceptance: Dr. R.B. Reed, Dr. C. Mendis-Handagama, Dr. J. Schumacher, Dr. S.E. Orosz Accepted for the Council: Carolyn R.
  • Vocabulario De Morfoloxía, Anatomía E Citoloxía Veterinaria

    Vocabulario De Morfoloxía, Anatomía E Citoloxía Veterinaria

    Vocabulario de Morfoloxía, anatomía e citoloxía veterinaria (galego-español-inglés) Servizo de Normalización Lingüística Universidade de Santiago de Compostela COLECCIÓN VOCABULARIOS TEMÁTICOS N.º 4 SERVIZO DE NORMALIZACIÓN LINGÜÍSTICA Vocabulario de Morfoloxía, anatomía e citoloxía veterinaria (galego-español-inglés) 2008 UNIVERSIDADE DE SANTIAGO DE COMPOSTELA VOCABULARIO de morfoloxía, anatomía e citoloxía veterinaria : (galego-español- inglés) / coordinador Xusto A. Rodríguez Río, Servizo de Normalización Lingüística ; autores Matilde Lombardero Fernández ... [et al.]. – Santiago de Compostela : Universidade de Santiago de Compostela, Servizo de Publicacións e Intercambio Científico, 2008. – 369 p. ; 21 cm. – (Vocabularios temáticos ; 4). - D.L. C 2458-2008. – ISBN 978-84-9887-018-3 1.Medicina �������������������������������������������������������������������������veterinaria-Diccionarios�������������������������������������������������. 2.Galego (Lingua)-Glosarios, vocabularios, etc. políglotas. I.Lombardero Fernández, Matilde. II.Rodríguez Rio, Xusto A. coord. III. Universidade de Santiago de Compostela. Servizo de Normalización Lingüística, coord. IV.Universidade de Santiago de Compostela. Servizo de Publicacións e Intercambio Científico, ed. V.Serie. 591.4(038)=699=60=20 Coordinador Xusto A. Rodríguez Río (Área de Terminoloxía. Servizo de Normalización Lingüística. Universidade de Santiago de Compostela) Autoras/res Matilde Lombardero Fernández (doutora en Veterinaria e profesora do Departamento de Anatomía e Produción Animal.
  • Name: David Daniella Christabel Matric Number: 18/MHS03/002 Department: Anatomy College: Medicine and Health Sciences Course Code: Ana 212

    Name: David Daniella Christabel Matric Number: 18/MHS03/002 Department: Anatomy College: Medicine and Health Sciences Course Code: Ana 212

    Name: David Daniella Christabel Matric Number: 18/MHS03/002 Department: Anatomy College: Medicine And Health Sciences Course Code: Ana 212 Question: Discuss the anal canal. The anal canal is the terminal segment of the large intestine between the rectum and the anus. The anal canal is located within the anal triangle of the perineum between the right and left ischioanal fosse. It is the final segment of the gastrointestinal tract, around 4cm in length. The canal begins as a continuation of the rectum and passes inferoposteriorly to terminate at the anus. Anal canal is traditionally divided into two segments, upper and lower, separated by the pectinate line also known as the dentate line. Except during defecation, the anal canal is collapsed by the internal and external sphincters to prevent the passage of faecal material. The anal canal is surrounded by internal and external anal sphincters, which play a crucial role in the maintenance of the faecal continence. • Internal Anal Sphincters: surrounds the upper 2/3 of the anal canal. It is formed from a thickening of the involuntary circular smooth muscle in the bowel wall. • External Anal Sphincter: voluntary muscle that surrounds the lower 2/3 of the anal canal (and so overlaps with the internal sphincter). It blends superiorly with the puborecrtalis muscle of the pelvic floor. At the junction of the rectum and the anal canal, there is a muscular ring known as the anorectal ring. It is formed by the fusion of the internal anal sphincter, external anal sphincter and puborectalis muscle, and is palpable on digital rectal examination.
  • 48 Anal Canal

    48 Anal Canal

    Anal Canal The rectum is a relatively straight continuation of the colon about 12 cm in length. Three internal transverse rectal valves (of Houston) occur in the distal rectum. Infoldings of the submucosa and the inner circular layer of the muscularis externa form these permanent sickle- shaped structures. The valves function in the separation of flatus from the developing fecal mass. The mucosa of the first part of the rectum is similar to that of the colon except that the intestinal glands are slightly longer and the lining epithelium is composed primarily of goblet cells. The distal 2 to 3 cm of the rectum forms the anal canal, which ends at the anus. Immediately proximal to the pectinate line, the intestinal glands become shorter and then disappear. At the pectinate line, the simple columnar intestinal epithelium makes an abrupt transition to noncornified stratified squamous epithelium. After a short transition, the noncornified stratified squamous epithelium becomes continuous with the keratinized stratified squamous epithelium of the skin at the level of the external anal sphincter. Beneath the epithelium of this region are simple tubular apocrine sweat glands, the circumanal glands. Proximal to the pectinate line, the mucosa of the anal canal forms large longitudinal folds called rectal columns (of Morgagni). The distal ends of the rectal columns are united by transverse mucosal folds, the anal valves. The recess above each valve forms a small anal sinus. It is at the level of the anal valves that the muscularis mucosae becomes discontinuous and then disappears. The submucosa of the anal canal contains numerous veins that form a large hemorrhoidal plexus.
  • Common and Uncommon Presentation of Fluid Within the Scrotal Spaces

    Common and Uncommon Presentation of Fluid Within the Scrotal Spaces

    THIEME E34 Review Common and Uncommon Presentation of Fluid within the Scrotal Spaces Authors V. Patil, S. M. C. Shetty, S. Das Affiliation Radiodiagnosis, JSS Medical College, Mysore, India Key words Abstract gin. US may suggest a specific diagnosis for a ●▶ US wide variety of intrascrotal cystic and fluid ▶ ▼ ● ultrasonography Ultrasonography(US) of the scrotum has been lesions and appropriately guide therapeutic ●▶ fluid demonstrated to be useful in the diagnosis of options. The paper reviews the current knowl- ●▶ testis ●▶ scrotum fluid in the scrotal sac. Grayscale US character- edge of ultrasound in conditions with fluid in the izes the lesions as testicular or extratesticular testis and scrotum. The review presents the and, with color Doppler, power Doppler and applications of ultrasonography in the diagnosis pulse Doppler, any perfusion can also be assessed. of hydrocele, testicular cysts, epididymal cysts, Cystic or encapsulated fluid collections are rela- spermatoceles, tubular ectasia, hernia and hema- tively common benign lesions that usually pre- toceles. The aim of this paper is to provide a pic- sent as palpable testicular lumps. Most cysts torial review of the common and uncommon arise in the epidydimis, but all anatomical struc- presentation of fluid within the scrotal spaces. tures of the scrotum can be the site of their ori- Introduction images with portions of each testis on the same ▼ image should be ideally acquired in grayscale and Scrotal conditions associated with fluid can be color Doppler modes. The structures within the received 21.01.2015 accepted 29.06.2015 broadly classified as fluid in scrotal sac, testicular scrotal sac are examined to detect extra testicu- cysts, epididymal cysts and inguinoscrotal hernia.
  • On the Rat Gastric Motility

    On the Rat Gastric Motility

    The Japanese Journal of Physiology 16, pp.497-508, 1966 ON THE RAT GASTRIC MOTILITY Takesi HUKUHARA AND Toshiaki NEYA Department of Physiology, Okayama University Medical School, Okayama From the results obtained in the experiments carried out on the automa- ticity of the motility of dogs small intestine, HUKUHARA, NAKAYAMA and FU- KUDA8) concluded that the origin of the intestinal motility was of neurogenic nature, that is, rhythmic contractions of the small intestine were maintained by acetylcholine which was spontaneously released from the intramural ganglion cells, including not only their cell bodies, but also their axons. This hypothesis is naturally expected to be applied to the gastric motility. Taking these facts and hypothesis into consideration, a series of experiments has been performed on the gastric motility. The experimental results here reported are concerned with the problems: the localization and specificity of the pacemaker, the difference of behavior of different regions of the stomach and the mechanism underlying these phenomena. As for the gastric peristalsis, the results obtained by investigators until 1924 were summarized by MCCREA et al.14) Since then there could be found only a few literatures4,6,10,11) related with the problems concerned. METHODS In order to observe the movement of the rat stomach in vivo, the well-fed animals weighing from 80 to 200 g were anesthetized with the intraperitoneal administration of 50 mg/kg pentobarbital sodium (Nembutal, ABBOT). It was characteristic that the movement of the rat stomach was not impaired despite administering such a large dose of the drug as described above. The animal was then set in supine position to the frames installed in the internal space of the double-walled trough, the lumen of the wall being irrigated with water appropriately warmed to keep the temperature of the space at about 37•Ž.